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Vandevelde, Lieven
European Parliament
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- 2015Empowering customer engagement by informative billing: a European approach
- 2013Magnetostriction strain measurement: heterodyne laser interferometry versus strain gauge technique
- 2013Magnetostriction strain measurement: heterodyne laser interferometry versus strain gauge technique
- 2010Magnetostriction measurement by using dual heterodyne laser interferometerscitations
- 2010Magnetostriction and the advantages of using noncontact measurementscitations
- 2009Measurement of magnetostriction using dual laser heterodyne interferometers : experimental challenges and preliminary results
- 2009Measurement of magnetostriction using dual laser heterodyne interferometers : experimental challenges and preliminary results
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article
Magnetostriction measurement by using dual heterodyne laser interferometers
Abstract
Electrical machines and transformers have a core built out of laminations of ferromagnetic materials. A portion of the vibrations and noise of these devices is due to magnetic forces and magnetostriction arising from the magnetic core. Magnetic forces are well known, and analytical methods are extensively used to calculate them. Magnetostriction can be defined as the deformation of the ferromagnetic material in the presence of a magnetic field. Unlike magnetic forces, magnetostriction shows a rather complex behavior. It varies for every material, and it depends on the applied magnetic field and external pressure. Therefore, magnetostrictive behavior of every material needs to be determined experimentally by means of strain measurements. Strain gauge measurement techniques have been used before at the Electrical Energy Laboratory (EELAB), Ghent University, Ghent, Belgium. In this paper, a new measurement method using dual heterodyne laser interferometers is proposed to overcome the drawbacks of the old method. The proposed measurement setup and the working principles are explained. The possibility to apply both techniques on one and the same sample can also reveal some interesting results about the quality of both techniques.